Is that 50 millimolarity? Thin that would be 0.05 Molarity
Molarity = moles of solute/Liters of solution
so, one needs to know how much volume or how much mass to help you.
Need calculation on how to make this buffer
50m osmoles
GTE stands for Glucose-Tris-EDTA.Glucose is used to maintain osmolarity: 50mM (millimolar) glucose prevents premature cell lysis, which can cause lower DNA yields to due to aggregation and degradation. The other components of the buffer also contribute to the osmolarity of the solution, but glucose, being a non-electrolyte, is a good choice because it does not interfere with the solution's buffer properties. The Tris is used to buffer whatever you're adding this to at pH 7.9. EDTA binds divalent cations like Ca2+ and Mg2+, thereby weakening the cell envelope of cells in the mixture. This is typically used for miniprep/DNA purification, when you have to lyse the cell and get internal cell components out into the solution.
One mole of NaOH weighs 23(Na)+16(O)+1(H)=40 g A 0.05 M NaOH is then 2 g NaOH/L. So dissolve 2 g NaOH in 500 ml water let it cool down to room temperature and fill it up to one liter. For accurate results you can use an analytical balance and a volumetric flask.
In order to prepare 50mM TES buffer, you will need to add in approximately 1000 ml of Proteinase K solution. From there, you will need to separate and stack the gels.
Need calculation on how to make this buffer
It is: 50mm = 5cm
Canon makes the best 50mm camera lens, known as the EF 50mm f/1.8mk2, 50mm f/1.4 USM and 50mm f/1.2L lenses
50mm from 0.14mm = -49.86mm
10mm = 1cm 50mm = 5cm
168cm add 50mm = 218
50mm=5cm 10mm=1cm
50mm drivers could be loudspeakers. (Tweeters)
Canon makes the best 50mm camera lens, known as the EF 50mm f/1.8mk2, 50mm f/1.4 USM and 50mm f/1.2L lenses
A 50mm lens has a diopter of 20.
Between 50mm and 6cm, the later would have the greater length. That is because 50mm is only equal to 5cm.